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F
Moeller Wiring Manual 02/05
Electronic motor starters and drives
or Immediate Deliv
2
Page
General 2-2
Basics of drives engineering 2-7
Soft starters DS4 2-19
Soft starters DM4 2-22
Frequency inverters DF5, DV5, DF6 and DV6 2-26
Connection examples DS4 2-38
Connection examples DM4 2-54
Connection examples DF5, DV5 2-69
Connection examples DF6 2-77
Connection examples DV6 2-80
Rapid Link system 2-86
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Moeller Wiring Manual 02/05
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Electronic motor starters and drivesGeneral
The complete power supply and control programme for motors
As the applications differ, so do the requirements made of the electric drives:• In the simplest case, the motor is switched with
an electromechanical contactor. Combinations consisting of motor protection and line protection are termed motor starter.
• If frequent and/or silent switching is required, contactless semiconductor contactors are used. In addition to conventional line, short-circuit and overload protection, superfast semiconductor fuses are required for type “2” coordination and may be needed for type “1” coordination.
• During DOL starting (star-delta, reversing starter or pole-switching), unwanted current and torque peaks occur. Soft starters eliminate these to ensure gentle starting and prevent an excessive burden on the power source.
• Where an infinitely adjustable speed or a torque adjustment is necessary, frequency inverters (U/f inverters, vector frequency inverters, servo) are used today.
As a general rule, the application determines the drive.
Three-phase asynchronous motors
A drive task first requires a drive motor whose characteristics with regard to speed, torque and control options are in accord with the set task.
M3~
M3~
M3~
M3~
M3~
Switching
Power distribution
ProtectionShort-circuit,
overloadShort-circuit,
semi-conductor
Frequenz-umrichter
Motorschutz
Electronicstarter
Short-circiuit,overload,
semi-conductor
ElectronicElectromechanical
Electromechanical
Electromechanical
Short-circiuit,overload,
semi-conductor
Switching
Control
Frequent and
silent switching
Softstarting
Speed control
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Electronic motor starters and drivesGeneral
Moeller Wiring Manual 02/05
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2
The three-phase asynchronous motor is the world’s most common electric motor. Its popularity is the result of a rugged, simple construction, high degrees of protection, standardized sizes and low cost.
Three-phase motors have typical starting characteristics, with tightening torque MA, pull-out torque MK and rated-load torque MN.
The three-phase motor contains three phase windings that are offset from one another by 120 °/p (p = number of pole pairs). To generate a rotating field in the motor, a voltage is applied to each phase in turn at a time delay of 120 °.
The effect of induction produces the rotating field and a torque in the rotor winding. The motor speed is determined by the number of pole pairs and the frequency of the supply voltage. The direction of rotation can be reversed by swapping over two of the supply phases:
ns = Revolutions per minutef = Frequency of voltage in Hzp = Number of pole pairs
Example: 4-pole motor (number of pole pairs = 2), mains frequency = 50 Hz, n = 1500 r.p.m. (synchronous speed, speed of rotating field)Because of the induction effect, the asynchronous motor’s rotor can not reach the rotating field’s synchronous speed even at idle. The difference between synchronous speed and rotor speed is termed slip.
P2 = Shaft rating in kWM = Torque in Nmn = Speed in r.p.m.
M, I IA
MA
Mk
Ms
MM
MB
ML
MN
IN
nN nS n0
0
L1 L2 L3
90˚
120˚
180˚ 270˚ 360˚
120˚ 120˚
ns =f x 60
p
Slip speed:
S =ns – n
ns
Speed of an asynchronous machine:
n =f x 60
(1 – s)p
The output power is as follows:
P2 =M x n
h =P2
9550 P2
P1 = U x I x W3 – p.f.
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Electronic motor starters and drivesGeneral
Moeller Wiring Manual 02/05
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The motor’s electrical and mechanical rating are recorded on its nameplate.
As a rule, three-phase asynchronous motors are connected to their power supply with six terminal bolts. There are basically two connection configurations: star and delta.
Note: In continuous operation, the mains voltage must be the same as the motor’s rated voltage.
Motor & Co GmbHTyp 160 l
3 ~ Mot.
S1
Nr. 12345-88
400/690 VyD 29/1715
1430 50Iso.-Kl. IP t
IEC34-1/VDE 0530
0,85ykWU/min Hz
A
54F U1 V1 W1
W2 U2 V2
Star connection Delta connection
ULN = W3 x UW ILN = IW ULN = UW ILN = W3 x IW
V1 W2
U2
V2
W1
U1
L3
L2
ULN
ILN
L1
V1
U2
V2
W1
W2
U1
L3
L2
ULN
ILN
L1
U1 V1 W1
W2 U2 V2
U1 V1 W1
W2 U2 V2
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Electronic motor starters and drivesGeneral
Moeller Wiring Manual 02/05
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Starting and operating methodsThe most important starting and operating methods for three-phase asynchronous motors include:
DOL starting(electromechanical)
Star-delta circuit(electromechanical)
M ~ I, n = constant My ~ l Md, n = constant
M3 h
M3 h
D y
IN
MN
nN
IN
y
D
MN
nN
100 %
t
U
100 %
58 %
U
t
D
y
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Electronic motor starters and drivesGeneral
Moeller Wiring Manual 02/05
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Soft starter and semiconductor contactor(electronic)
Frequency inverter(electronic)
M ~ U2, n = constant M ~ U/f, n = variable
UBoost = Start pedestal (adjustable)tRamp = Ramp time (adjustable)
U2 = Output voltage (adjustable)UBoost = Start pedestal (adjustable)tRamp = Ramp time (adjustable)
M3 h M
3 h
A
RUN
PRG
Hz
PRGENTER
I O
POWER
ALARM
IN
MN
nN
IN
MN
n0 n1 n2 ... nN ... nmax
100 %
30 %
U
U Boost
tt Ramp
100 %
U
U2
U Boost
tt Ramp
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Electronic motor starters and drivesBasics of drives engineering
2
Power electronics devices
The power electronics devices provide infinitely variable adjustment of physical variables – such as speed or torque – to the application process. The power is drawn from the electrical mains, converted in the power electronics apparatus and fed to the consumer (i.e. the motor).
Semiconductor contactorsSemiconductor contactor allow fast, silent switching of three-phase motors and resistive loads. Switching takes place automatically at the ideal point in time and suppresses unwanted current and voltage peaks.
Soft startersSoft starters ramp the voltage fed to the motor up to mains voltage, so that the motor starts almost jolt-free. The voltage reduction leads to a square-law torque reduction in relation to the motor’s normal starting torque. Soft starter are therefore especially well suited to starting loads with a square-law speed or torque characteristic (such as pumps or fans).
Frequency invertersFrequency inverters convert the AC or three-phase system with its constant voltage and frequency into a new, three-phase system with variable voltage and frequency. This voltage/frequency control enables stepless speed control of three-phase motors. The controlled drive can be operated at rated-load torque even at low speeds.
Vector frequency invertersWhile conventional frequency inverters control three-phase motors using a charactieristic-controlled U/f (voltage/frequency) relationship, vector frequency inverters work using a sensorless, flow-oriented control of the motor’s magnetic field. The controlled variable is the motor current. This allows an opimized control of the torque for demanding applications (mixers and agitators, extruders, transport and conveying installations).
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Electronic motor starters and drivesBasics of drives engineering
Moeller Wiring Manual 02/05
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Moeller drives
Designation Model Rated current
[A]
Mains supply voltage
[V]
Assigned motor rating
[kW]
Semiconductor contactor for resistive and inductive load
DS4-140-H 10–50 1 AC 110–500 –
Soft starter DS4-340-M 6–23 3 AC 110–500 2.2–11 (400 V)Soft starter with bidirectional operation
DS4-340-MR 6–23 3 AC 110–500 2.2–11 (400 V)
Soft starter with bypass relay
DS4-340-MX,DS4-340-M + DIL
16–46 3 AC 110–500 7.5–22 (400 V)
Soft starter with bypass relay and bidirectional operation
DS4-340-MXR 16–31 3 AC 110–500 7.5–15 (400 V)
Soft starters (in-line connection type)
DM4-340... 16–900 3 AC 230 – 460 7.5–500 (400 V)
Soft starters (delta connection type)
DM4-340... 16–900 3 AC 230 – 460 11–900 (400 V)
Frequency inverters DF5-322... 1.4–10 1 AC 2303 AC 230
0.18–2.2 (230 V)
Frequency inverters DF5-340... 1.5–16 3 AC 400 0.37–7.5 (400 V)Frequency inverters DF6-340... 22–230 3 AC 400 11–132 (400 V)Vector frequency inverters
DV5-322... 1.4–11 1 AC 2303 AC 230
0.18–2.2 (230 V)
Vector frequency inverters
DV5-340... 1.5–16 3 AC 400 0.37–7.5 (400 V)
Vector frequency inverters
DV6-340... 2.5–260 3 AC 400 0.75–132 (400 V)
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Electronic motor starters and drivesBasics of drives engineering
Moeller Wiring Manual 02/05
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Semiconductor contactors DS4-… Frequency inverters DF5-…Vector frequency inverters DV5-…
Frequency inverters DF6-320-…Vector frequency inverters DV6-320-…
Soft starters DM4-…
A
RUN
PRG
Hz
PRGENTER
I O
POWER
ALARM
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Electronic motor starters and drivesBasics of drives engineering
Moeller Wiring Manual 02/05
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DOL starting
In the simplest case, and especially at low rated output (up to about 2.2 kW), the three-phase motor is connected directly to mains voltage. In most applications, the connection is made with an electromechanical contactor. In this control mode, – on the mains at fixed voltage and frequency – the asynchronous motor’s speed is only slightly below the
synchronous speed [ns ~ f]. Due to rotor slippage, The operating speed [n] deviates from this value in relation to the rotating field [n = ns x (1 – s)], slippage being[s = (ns – n)/ns]. On starting (s = 1), a high starting current occurs, reaching up to ten times the rated current Ie.
Features of DOL starting• For low- and medium-power three-phase
motors• Three connection lines (circuit layout: star or
delta)• High starting torque• Very high mechanical load• High current peaks• Voltage dips• Simple switching devices
If an application demands frequent and/or silent switching, or if adverse environmental conditions prevent the effective use of electromechanical switching elements, electronic semiconductor contactors are required. In addition to short-circuit and overload protection, the semiconductor contactor must be protected with a superfast fuse. According to IEC/EN 60947, type “2” coordination requires the use of a superfast semiconductor fuse. For type “1” coordination, – the majority of cases – a superfast semiconductor fuse is not necessary. Here are a few examples:
2
3
4
5
6
7I
Ie
n/nN
I/Ie: 6...10
1
0.25 0.5 0.75 1
1
2
ML
M
MN
M/MN: 0.25...2.5
n/nN
0.25 0.5 0.75 1
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Electronic motor starters and drivesBasics of drives engineering
Moeller Wiring Manual 02/05
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• Building services management:– Reversing drive for lift doors– Starting heat-exchanger units– Starting conveyor belts
• In critical atmospheres: – Controlling filling station petrol pump motors– Controlling pumps in paint processing plants.
• Other applications: Non-motor-driven loads, such as– Heater elements in extruders– Heater elements in kilns – Controlling lighting systems.
Motor start in star-delta configuration
The star-delta circuit layout is the most commonly used configuration for starting three-phase motors.The completely factory prewired SDAINL star-delta combination from Moeller provides convenient
motor control. The customer saves on expensive wiring and installation time and reduces the likelihood of faults.
.
Features of star-delta starting• For low- to high-power three-phase motors• Reduced starting current• Six connection cables• Reduced starting torque• Current peak on changeover from star to delta• Mechanical load on changeover from star to
delta
2
3
4
5
6
7I
Ie
I/Ie: 1.5...2.5
n/nN
1
0.25 0.5 0.75 1
1
2
ML
M
MN
M/MN: 0.5
n/nN
0.25 0.5 0.75 1
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Electronic motor starters and drivesBasics of drives engineering
Moeller Wiring Manual 02/05
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Soft starters (electronic motor start)
The characteristic curves for DOL and star-delta starting show current and torque step changes, which have a number of negative effects, especially at medium and high motor ratings:• High mechanical machine loads • Rapid wear• Increased servicing costs• High supply costs from the power supply
companies (peak current calculation)• High mains and generator load• Voltage dips with a negative effect in other
consumers
The ideal scenario of a smooth torque build-up and a controlled current reduction in the starting phase is made possible by the electronic soft starter. Providing infinitely variable control of the three-phase motor’s supply voltage in the starting phase, it matches the motor to the load behaviour of the driven machine and accelerates it smoothly. This avoids mechanical jolting and suppresses current peaks. Soft starters present an electronic alternative to the conventional star-delta switch.
Features of the soft starters• For low- to high-power three-phase motors• No current peaks• Zero maintenance• Reduced adjustable starting torque
2
3
4
5
6
7I
Ie
I/Ie: 1...5
n/nN
1
0.25 0.5 0.75 1
1
2
ML
M/MN: 0.15...1
M
MN
n/nN
0.25 0.5 0.75 1
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Electronic motor starters and drivesBasics of drives engineering
Moeller Wiring Manual 02/05
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2
Parallel connection of several motors to a single soft starter
You can also use soft starters to start several motors connected in parallel. This does not, however, allow the behaviour of the individual motors to be controlled. Each motor must be separately fitted with suitable overload protection.
Note:The total current consumption of the connected motors must not exceed the soft starter’s rated operational current Ie.
Note:Each motor must be individually protected with a thermistor and/or overload relay.
Caution! Switching must not take place in the soft starter’s output as the resulting voltage peaks can damage the thyristors in the power section.Problems may arise during starting if there are significant differences in the connected motors’ ratings (for example 1.5 kW and 11 kW): The lower-rated motors may not be able to reach the required torque due to the relatively large ohmic resistance of these motors’ stators, requiring a higher voltage during starting.
It is advisable to use this circuit type only with motors of a similar rating.
F1
MM1 M23
Q11
Q21
L1L2L3
Q1
L1 L2 L3
T1 T2 T3
F12F11
M3
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Electronic motor starters and drivesBasics of drives engineering
Moeller Wiring Manual 02/05
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Using soft starters with pole-changing motors
Soft starters can be connected in the supply line before pole-changing, a section “Pole-changing motors”, page 8-51).
Note: All changeovers (high/low speed) must take place at standstill.The start signal must be issued only when a contact sequence has been selected and a start signal for pole-changing was set.Control is comparable to cascade control with the difference that the changeover is made not to the next motor but to the other winding (TOR = top-of-ramp signal).
Using soft starters with three-phase slipring motors
When upgrading or modernizing older installations, contactors and rotor resistors of multistage three-phase stator automatic starters can be replaced with soft starters. This is done by removing the rotor resistors and assigned contactors and short-circuiting the sliprings of the motor’s rotor. The soft starter is then connected into the incomer and provides stepless starting of the motor. (a page 2-15).
Using soft starters for motors with power-factor correction
Caution!No capacitive loads must be connected at the soft starter’s output.
Power-factor corrected motors or motor groups must not be started with soft starters. Mains-side compensation is permissible when the ramp time (starting phase) has completed (i.e. the TOR (Top of Ramp) signal has been issued) and the capacitors exhibit a series inductance.
Note:If electronic devices (such as, soft starters, frequency inverters or UPS), use capacitors and correction circuits only with a choke fitted upstream.
a page 2-16.
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Electronic motor starters and drivesBasics of drives engineering
Moeller Wiring Manual 02/05
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2
L1L2
L3
Q1
13
513 14
F1
26
4
24
6
PEU
VW
M 3 M1
13
5Q
11Q
43Q
42Q
412
46
13
51
53
24
62
46
13
5
K L M
U3
V3
W3
U2
V2
W2
R3R2
U1
V1
W2
R1
I >
I >
I >
L1L2
L3
4
15
3
24
6
UV
W
K L M
M 3
I >
I >
I >
F1
26
15
3
Q1
13 14
Q11
Q21
M1
L1L2
L3
T1T2
T3
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Electronic motor starters and drivesBasics of drives engineering
Moeller Wiring Manual 02/05
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M 3
L1 L2 L3
Q1 M
1Q11
MM
13
Q11
Q21L1 L2 L3
Q1
L1L2
L3
T1T2
T3
Caut
ion!
Not
per
miss
ible
MM
13
Q11
Q21L1 L2 L3
Q12
TOR
Q1
L1L2
L3
T1T2
T3
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Electronic motor starters and drivesBasics of drives engineering
Moeller Wiring Manual 02/05
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2
Connecting star points when using soft starters or semiconductor contactors
Caution!The connection of the star point to the PE or N conductor is not permissible when using controlled semiconductor contactors or soft starters. This applies especially to two-phase-controlled starters.
M3
L1
Q21
M1
R1
L2 L3
L1 L2 L3
T1 T2 T3
L1 L3
L1 L3
L2
L2
T1 T2 T3
L1 L3
L1 L3
L2
L2
T1 T2 T3
Caution!
Not permissible
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Electronic motor starters and drivesBasics of drives engineering
Moeller Wiring Manual 02/05
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Soft starters and classification type to IEC/EN 60947-4-3
The following classification types are defined in IEC/EN 60947-4-3, 8.2.5.1:
Type “1” coordinationIn type “1” coordination, the contactor or soft starter must not endanger persons or the installation in the event of a short-circuit and does not have to be capable of continued use without repairs or parts replacements.
Type “2” coordinationIn type “2” coordination, the contactor or soft starter must not endanger persons or the installation in the event of a short-circuit and must be capable of continued use without repairs or parts replacements. For hybrid control devices and contactors, there is a risk of contact welding. In this case the manufacturer must provide appropriate maintenance instructions.The coordinated short-circuit protection device (SCPD) must trip in the event of a short-circuit. Blown fuses must be replaced. This is part of normal operation (for the fuse), also for type “2” coordination.
M3
L1L2L3PE
Q1
L1 L2 L3
T1 T2 T3
M1
F1
Q21
I> I> I>
MM1 3
L1L2L3PE
Q1
F1
Q21
L1 L2 L3
T1 T2 T3
I> I> I>
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Electronic motor starters and drivesSoft starters DS4
2
Product attributes
• Construction, mounting and connection as for contactor
• Automatic control voltage detection– 24 V DC g 15 % 110 to 240 V AC g 15 %– Safe starting at 85 % Umin
• Operation indication by LED• Individually adjustable start and stop ramps
(0.5 to 10 s)• Adjustable start pedestal (30 to 100 %)• Relay contact (N/O contact): operating signal,
TOR (top of ramp)
t-Start (s)
12
5
100
0,5
5060
80
10030
40
12
5
100
0,5
U-Start (%)
t-Stop (s)
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Electronic motor starters and drivesSoft starters DS4
Moeller Wiring Manual 02/05
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LED displays
The LEDs indicate the operational states as follows:
Red LED Green LED Function
Lit Lit Init, LEDs lit only briefly, Init itself takes about 2 secondsDepending on device:
– All devices: LED briefly lit once– DC devices: after a brief pause, the LEDs briefly light up again
Off Off Device is off
Off Flashing at 2 s intervals
Ready for operation, power supply OK, but no start signal
Off Flashing at 0.5 s interval
Device in operation, ramp is active (soft start or soft stop); on M(X)R the current rotating field direction is also indicated.
Off Lit Device in operation, top-of-ramp reached; on M(X)R the current rotating field direction is also indicated.
Flashing at 0.5 s interval
Off Fault
U
U
Run- (FWD/REV-) LED
U = 100 %
A1, A2FWD, REV, 0
Error-LED
out
e
Initialization Fault Ready for operation In ramp Top of ramp
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Electronic motor starters and drivesSoft starters DS4
Moeller Wiring Manual 02/05
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Power section versions
DOL starters DOL starters with bypass
Reversing starters Reversing starters with bypass
DS4-340-...-M DS4-340-...-MX DS4-340-...-MR DS4-340-...-MXR
M3
L1 L2
DS4
L3
L1 L2 L3
T1 T2 T3
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Electronic motor starters and drivesSoft starters DM4
Product attributes
• Configurable, communications-capable soft starter with plug-in control signal terminals and interface for optional units:– Operator control and programming unit– Serial interface– Fieldbus module
• Application selector switch with user-programmable parameter sets for 10 standard applications
• I2t controller– Current limitation– Overload protection– Idle/undercurrent detection (e.g. belt break-
age)• Kickstarting and heavy starting• Automatic control voltage detection• 3 relays, e.g. fault signal, TOR (top of ramp)Ten default parameter sets for typical applications can be simply called up with a selector switch. Additional plant-specific settings can be defined with an optional keypad.In three-phase regulator control mode, for example, three-phase resistive and inductive loads – heaters, lighting systems, transformers – can be controlled with the DM4. Both open-loop and – with measured value feedback – closed-loop control are possible.
Instead of the keypad, intelligent interfaces can also be used:• Serial RS 232/RS 485 interface (configuration
through PC software)• Suconet K fieldbus module (interface on every
Moeller PLC)• PROFIBUS DP fieldbus moduleThe DM4 soft starters provide the most convenient method of implementing soft starting. Because – in addition to phase failure and motor current monitoring – the motor winding temperature is signalled through the built-in thermistor input, the soft starters eliminate the need for additional, external components, such as motor protective relays. DM4 conforms to the IEC/EN 60947-4-2 standard.With the soft starter, reducing the voltage results in a reduction of the high starting currents of the three-phase motor, although the torque is also reduced [Istartup ~ U] and [M ~ U2]. After starting, the motor reaches its rated speed with all of the solutions described above. For starting motors at rated-load torque and/or for motor operation at a motor speed that is independent of the supply frequency, a frequency inverter is required.
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Electronic motor starters and drivesSoft starters DM4
Moeller Wiring Manual 02/05
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0 - standard 1 - high torque2 - pump 3 - pump kickstart4 - light conveyor5 - heavy conveyor6 - low inertia fan7 - high inertia fan8 - recip compressor9 - screw compressor
fault
c/l run
supp
lyflash
on
0 - standart 1 - high torque2 - pump 3 - pump kickstart4 - light conveyor5 - heavy conveyor6 - low inertia fan7 - high inertia fan8 - recip compressor9 - screw compressor
a
b
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Electronic motor starters and drivesSoft starters DM4
Moeller Wiring Manual 02/05
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Standard applications (selector switch)
Delta circuitNormally, soft starters are connected directly in series (in-line) with the motor. The DM4 soft starters also allow a delta connection. Advantage: • This is a less expensive alternative since the soft
starter has to deliver only 58 % of the motor’s rated current.
Disadvantages over in-line connection:• As in a star-delta circuit, the motor must be
connected with six conductors.• The DM4’s overload protection is active only in
one phase, so that additional motor protection must be fitted in the parallel phase or in the supply cable.
Note:The delta connection is more cost-effective at motor ratings over 30 kW and when replacing star-delta switches.
Labelling on device
Indication on keypad
Meaning Notes
Standard Standard Standard Default settings, suitable without adaptation for most applications
High torque1) High Torque High breakaway torque
Drives with higher friction torque at standstill
Pump Pump Small pump Pump drives up to 15 kW
Pump Kickstart
Pump.w.Kick Large pump Pump drives over 15 kW Longer deceleration times.
Light conveyor
LightConvey Light conveyor
Heavy conveyor
HeavyConvey Heavy-duty conveyor
Low inertia fan
LowInert.fan Low-inertia fan Fan drive with relatively small mass inertia moment of up to 15 times the motor’s inertia moment
High inertia fan
HighInertfan High-inertia fan Fan drive with relatively large mass inertia moment of over 15 times the motor’s inertia moment Longer ramp-up times.
Recip compressor
RecipCompres Reciprocal compressor
Higher start pedestal, p.f. optimization matched
Screw compressor
ScrewCompres Screw compressor
Increased current consumption, no current limitation
1) For the “High Torque” setting, the soft starter must be able to supply 1.5 times the motor’s rated current.
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Electronic motor starters and drives
Soft starters DM4
Moeller W
iring Manual 02/05
2-25
2
W V
~U1 V1 W1
W2 U2 V2
In-Line In-DeltaULN 400 V
66) 595-9616
IIIIII
M3 ~
55 kW400 V
55 k400
M3
100 A
DM4-340-55K(105 A)
DILM115
NZM7-125N-OBI
DILM115
NZM7-125N
U1 V1 W1
W2 U2 V2
/ 690 V400 100 / 5955S1 0.86ϕcoskW
rpm1410 50 Hz
A
100 A3
DM4-340-30K(59 A)
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Electronic motor starters and drivesFrequency inverters DF5, DV5, DF6, DV6
Design and mode of operation
Frequency inverters provide variable, stepless speed control of three-phase motors.
Frequency inverters convert constant mains voltage and frequency into a DC voltage, from which they generate a new three-phase supply with variable voltage and frequency for the three-phase motor. The frequency inverter draws
almost only active power (p.f. ~ 1) from the supplying mains. The reactive power needed for motor operation is supplied by the DC link. This eliminates the need for p.f. correction on the mains side.
M, nU, f, IU, f, (I)
F
vm
J
M
3~
~I M
~f nPel = U x I x √3 x y M x n
PL = 9550
Energy flow
VariableConstant
Mains Electronic actuator Motor Load
a Rectifierb DC link
c Inverter with IGBTd Open-/closed-loop control
L1, L1
a
d
cb
L2, N
L3
IGBT
M3~
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Moeller Wiring Manual 02/05
F
2
The frequency-controlled three-phase motor is today a standard component for infinitely variable speed and torque regulation, providing efficient, energy-saving power either as an individual drive or as part of an automated installation.
The possibilities for individual or plant-specific coordination are determined by the specific features of the inverters and by the modulation procedure used.
Modulation procedure of inverters
An inverter basically consists of six electronic switches and is today usually made with IGBTs (insulated gate bipolar transistors). The control
circuit switches the IGBTs on and off according to various principles (modulation procedures) to change the frequency inverter’s output frequency.
Sensorless vector control
The switching patterns for the inverter are calculated with the PWM (pulse-width modulation) switching patterns. In voltage vector control mode, the amplitude and frequency of the voltage vector are controlled in dependence of slippage and load current. This allows large speed ranges and highly accurate speeds to be achieved without speed feedback. This control method (U/f control) is the preferred method for parallel operation of several motors with one frequency inverter.
In flow-regulated vector control, the active and reactive current components are calculated from the measured motor currents, compared with the values from the motor model and, if necessary, corrected. The amplitude, frequency and inclination of the voltage vector are controlled directly. This allows operation at the current limit and the achievement of large speed ranges and highly accurate speeds. Especially noteworthy is the drive’s dynamic output at low speeds, for example in lifting and winding applications.
2
3
4
5
6
7I
Ie
I/Ie: 0...1.8
n/nN
1
0.25 0.5 0.75 1
I
IN
1
2
ML
M
MN
M
MN
M/MN: 0.1...1.5
n/nN
0.25 0.5 0.75 1
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Electronic motor starters and drivesFrequency inverters DF5, DV5, DF6, DV6
Moeller Wiring Manual 02/05
2
F
The key advantage of sensorless vector technology is that the motor current can be regulated to match the motor’s rated current. This allows dynamic torque regulation to be implemented for three-phase asynchronous motors.
The following illustration shows a simplified equivalent circuit diagram for the asynchronous motor and associated current vectors:
In sensorless vector control, the flux-generating current iµ and the torque-generating current iw are calculated from the measured stator voltage u1 and stator current i1. The calculation is performed with a dynamic motor model (electrical equivalent circuit of the three-phase motor) with adaptive current regulators, taking into account the saturation of the main field and the iron loss. The two current components are set according to their value and phase in a rotating coordinate system (o) to the stator reference system (a, b).
The physical motor data required for the model is formed from the entered and measured (self-tuning) parameters.
a Statorb Air gapc Rotord Rotor flow-orientede Stator-oriented
i1 = Stator current (phase current)iµ = Flux-generating current componentiw = Torque-generating current componentR’2 /s = Slip-dependent rotor resistance
R1
a cb
X'2 R'2 / sX1
i1 iw
u1 Xhim
d
e
i1 iw
im
im
ia
ib
V~
b o
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Electronic motor starters and drivesFrequency inverters DF5, DV5, DF6, DV6
Moeller Wiring Manual 02/05
F
2
Characteristics of frequency inverters DF5, DF6
• Infinitely variable speed control through voltage/frequency control (U/f)
• High starting and acceleration torque• Constant torque in motor’s rated range• EMC measures (optional: radio interference
filter, screened motor cable)
Additional features of sensorless vector control for frequency inverters DV5 and DV6• Infinitely variable torque control, also at zero
speed• Low torque control time• Increased concentricity and constancy of speed• Speed control (options for DV6: control module,
pulse generator)The DF5, DF6, DV5 and DV6 frequency inverters are factory-preset for their assigned motor rating, allowing drives to be started immediately after installation.
Individual settings can be made with an optional keypad. Various control modes can be selected and configured in a number of layers, For applications with pressure and flow control, all devices contain a built-in PID controller that can be matched to any system. A further advantage of the frequency inverters is that they eliminate the need for external components for monitoring and motor protection. On the mains side, only a fuse or circuit-breaker (PHKZ) is needed for line and short-circuit protection. The frequency inverter’s inputs and outputs are monitored internally by measurement and control circuits, such as overtemperature, earth fault, short-circuit, motor overload, motor blockage and drive belt monitoring. Temperature measurement in the motor winding can also be incorporated in the frequency inverter’s control circuit through a thermistor input.
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Moeller Wiring Manual 02/05
2
F
Frequency inverter, installing
Electronic devices such as soft starters and frequency inverters must normally be fitted vertically.To ensure adequate air circulation for cooling, a clear space of at least 100 mm should be maintained both above and below the device. At the sides of the device, the clear space should be at least 10 mm for DF5 and DV5 and 50 mm for DF6 and DV6.Note that the front enclosure elements of the DF5 and DV5 devices open to the side for electrical connection. Make sure that the free space in the area of the front hinged covers is at least 80 mm to the left side and at least 120 mm to the right side.
F 30˚F 30˚
F 30˚F 30˚
f 120f 80
f 1
00f
100
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Moeller Wiring Manual 02/05
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2
EMC-compliant connection of frequency inverters.
The EMC-compliant mounting and connection is described in detail in the respective devices’ manuals (AWB).
M3~
3~
F
Q
R
K
T
M
Mains
Contactor
Switching
Mains choke
Suppressor filter
Frequency inverter
Motor cable
Motor
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Moeller Wiring Manual 02/05
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F
Notes about correct installation of frequency inverters
For an EMC-compliant installation, observe the following information. Electrical and magnetic disturbance fields can be limited to the required levels. The necessary measures work only in combination and should be taken into consideration at the engineering stage. To subsequently modify an installation to meet EMC requirements is possible only at considerable additional cost.
EMC measuresThe EMC (electromagnetic compatibility) of a device is its ability to withstand electrical interference (i.e. its immunity) while itself not emitting excessive electromagnetic interference into the environment. The IEC/EN 61800-3 standard describes the limit values and test methods for emitted interference and noise immunity for variable-speed electrical drives (PDS = Power Drives System). The tests and values are based not on individual components but on a typical complete drive system.
Measures for EMC-compliant installation are:• Earthing measures• Screening measures• Filtering measures• ChokesThey are described in more detail below.
Earthing measuresThese must be implemented to comply with the legal standards and are a prerequisite for the effective use of further measures such as filters and screening. All conducting metallic enclosure sections must be electrically connected to the earth potential. For EMC, the important factor is not the cable’s cross-section, but its surface, since this is where high frequency current flows to earth. All earthing points must be low-impedance, highly conductive and routed directly to the central earthing point (potential equalization bar or star earth). The contact points must be free from paint and rust. Use galvanized mounting plates and materials.
K1 = Radio interference filterT1 = Frequency inverter
e
PE
K1T1 Tn Kn
PE
PE
M1
PE PE
M 3h
MnM 3h
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Electronic motor starters and drivesFrequency inverters DF5, DV5, DF6, DV6
Moeller Wiring Manual 02/05
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2
Screening measures
L1L2L3PE
ba
e d c
F 300 mm
M
3
Four-core screened motor supply cable:
a Copper screen braid, earth at both ends with large-area connections
b PVC outer sheathc Drain wire (copper, U, V, W, PE)d PVC cable insulation 3 x black,
1 x green/yellowe Textile and PVC fillers
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Electronic motor starters and drivesFrequency inverters DF5, DV5, DF6, DV6
Moeller Wiring Manual 02/05
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F
Screening reduces emitted interference (noise immunity of neighbouring systems and devices against external influences). Cables laid between the frequency inverter and the motor must be screened, but the screen must not be considered a replacement for the PE cable. Four-wire motor cables are recommended (three phases plus PE). The screen must be connected to earth (PES) at both ends with a large-area connection. Do not connect the screen with pigtails. Interruptions in the screen, such as terminals, contactors, chokes, etc., must have a low impedance and be bridged with a large contact area. To do this, sever the screen near the module and establish a large-area contact with earth potential (PES, screen terminal). Free, unscreened cables should not be longer than about 100 mm.Example: Screen attachment for maintenance switch
Note:Maintenance switches at of frequency inverter outputs must be operated only at zero current.
Control and signal lines must be twisted and may be double-screened, the inner screen being connected to the voltage source at one end and the outer screen at both ends. The motor cable must be laid separately from the control and signal lines (>10 cm) and must not run parallel to any power cables.
a Power cables: mains, motor, internal DC link, braking resistance
b Signal cables: analog and digital control signals
Inside control panels, too, cables should be screened if they are more than 30 cm long.
4.2 x 8.2
o 4.1 o 3.5
MBS-I2
e
f 100
b a
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Electronic motor starters and drivesFrequency inverters DF5, DV5, DF6, DV6
Moeller Wiring Manual 02/05
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2
Example for screening control and signal cables:
Filtering measuresRadio interference filters and line filters (combinations of radio interference filter and mains choke) protect against conducted high-frequency interference (noise immunity) and reduce the frequency inverter’s high-frequency interference, which is transmitted through or emitted from the mains cable, and which must be limited to a prescribed level (emitted interference).Filters should be installed as closely as possible to the frequency inverter to keep the length of the connecting cable between frequency inverter and filter short.
Note:The mounting surfaces of frequency inverters and radio interference filters must be free from paint and must have good HF conductivity.
Example for a standard connection of frequency inverter DF5, with reference value potentiometer R1 (M22-4K7) and mounting accessories ZB4-102-KS1
2 1 P24H O L
ZB4-102-KS1
15
M4PE
2Cu 2.5 mmPES
PES
1 2
3
M
R1 REV FWD
4K7M
F 2
0 m
I O
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Electronic motor starters and drivesFrequency inverters DF5, DV5, DF6, DV6
Moeller Wiring Manual 02/05
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F
Filters produce leakage currents which, in the event of a fault (such as phase failure or load unbalance), can be much larger than the rated values. To prevent dangerous voltages, the filters must be earthed. As the leakage currents are high-frequency interference sources, the earthing connections and cables must have a low resistance and large contact surfaces.
For leakage currents above 3.5 mA, one of the following must be fulfilled according to EN 60335:• the protective conductor must have a
cross-section greater than 10 mm2,• the protective conductor must be open-circuit
monitored, or• an additional conductor must be fitted.
ChokesFitted on the frequency inverter’s input side, chokes reduce the current-dependent phase effect and improve the power factor. This reduces the current harmonics and improves the mains quality. The use of mains chokes is especially recommended where several frequency inverters are connected to a single mains supply point when other electronic devices are also connected to the same supply network. A reduction of the mains current interference is also achieved by installing DC chokes in the frequency inverter’s DC link.
At the frequency inverter’s output, chokes are used if the motor cables are long and if multiple motors are connected in parallel to the output. They also enhance the protection of the power semiconductors in the event of an earth fault or short-circuit, and protect the motors from excessive rates of voltage rise (> 500 V/µs) resulting from high pulse frequencies.
M3h
E
L/L1L2N/L3
UV
W
R2S2T2
L1L2L3
L1Z1 G1
L2L3
PE
E
Eee
E
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Electronic motor starters and drivesFrequency inverters DF5, DV5, DF6, DV6
Moeller Wiring Manual 02/05
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2
Example: EMC-compliant mounting and connection
a Metal plate, e.g. MSB-I2b Earthing terminalc Maintenance switches
PE
15
PES
PES
PES
W2 U2 V2
U1 V1 W1
PE
a
b
PES
PES
c
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F
Electronic motor starters and drivesConnection examples, DS4
Linking the overload relay into the control system
We recommend using an external overload relay instead of a motor-protective circuit-breaker with built-in overload relay. This allows controlled ramping down of the soft starter through the control section in the event of an overload.Note:Connecting the motor directly to mains power can cause overvoltage and destruction of the soft starter’s semiconductors.Note:The overload relay’s signalling contacts are linked into the On/Off circuit.
In the event of a fault, the soft starter decelerates for the set ramp time and stops.
Standard connection, unidirectional rotation
In standard operation the soft starter is connected into the motor supply line. A central switching element (contactor or main switch) with isolating properties to isolate the mains according to EN 60947-1 section 7.1.6 and for working on the motor is required according to EN 60204-1 section 5.3. No contactors are required to operate individual motor feeders.
Minimum connection of DS4-340-M(X)
0: Off/soft stop, 1: Start/soft start
F2
Q1
M3~
1L1
5L3
3L2
2T1
6T3
4T2
M1
Q21
F1
13 14
L1L2L3PE
TOR
I I I
Q21
S3
F1
A1
0 1
A2
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Electronic motor starters and drives
Connection examples, DS4
Moeller W
iring Manual 02/05
2-39
2
Connection of DS4-340-M as semiconductor contactor
ith Q11/K2t optionalnductor contactor On/Off
Q21
K1
HLSStart/Stop
A1
A2
66) 595-9616
Q1 = Line protectionQ11 =Mains contactor (optional)F1 = Motor-protective relay
F2 = Semiconductor fuse for type “2” coordination, in addition to Q1Q21 = Semiconductor contactorM1 = Motor
S1: Q11 OffS2: Q11 Onb: Control wHLS = Semico
F2
Q11
Q1
M3~
1L1
5L3
3L2
2T1
6T3
4T2
M1
Q21
F1
13 14
L1L2L3PE
I I I
Ready
K1
b
K2t
Q11S2
S1
K1
Q11
K2tt > tStop + 150 ms
F1
L01/L+
L00/L–
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Electronic motor starters and drivesConnection examples, DS4
Moeller Wiring Manual 02/05
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F
Connection as soft starter without separate mains contactor
Q1: Line protectionF1: Overload relayF2: Semiconductor fuse for type “2”
coordination, in addition to Q1T1: Semiconductor contactorM1: Motor
n Emergency-StopS1: Soft stopS2: Soft start
F2
Q1
M3~
1L1
5L3
3L2
2T1
6T3
4T2
M1
T1
F1
13 14
L1L2L3PE
TOR
I I I
K1
K1S2
S1
K1
T1A1
A2
F1
L01/L+
L00/L–
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Electronic motor starters and drives
Connection examples, DS4
Moeller W
iring Manual 02/05
2-41
2
Connection of soft starter with mains contactor
Emergency-StopQ11 OffQ11 On
T1
K3
K3
K1
K3 s Soft Start
Soft Stop
66) 595-9616
Q1 = Line protectionQ11 = Mains contactor (optional)F1 = Motor-protective relay
F2 = Semiconductor fuse for type “2” coordination, in addition to Q1
T1 = Soft starterM1 = Motor
nS1:S2:
F2
Q11
Q1
M3~
1L1
5L3
3L2
2T1
6T3
4T2
M1
T1
F1
13 14
L1L2L3PE
TOR
I I I
K1
K1S2
S1
Q11
K1
F1
K2t
K2tt = 10
L01/L+
L00/L–
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Moeller Wiring Manual 02/05
2
F
Reversing circuit standard connection, bidirectional rotation
Note:The device of the DS4-...-M(X)R series have a built-in electronic reversing contactor function. You need to only specify the required direction of rotation. The DS4 then internally ensures the correct control sequence.At ratings over 22 kW, a conventional reversing circuit layout must be used, because above this
rating the DS4 is not available with built-in reversing contactor function. In this case make sure that direction reversal takes place only with the DS4 in stop state. Use an external controller to implement this functionality. In soft starter operation, you can use a TOR relay to control an off-delayed relay for this purpose, whereby the deceleration time must be t-Stop + 150 ms or higher.
Minimum connection of DS4-340-M(X)R
Q1: Line protectionQ11: Mains contactor (optional)F1: Overload relayF2: Semiconductor fuse for type “2”
coordination, in addition to Q1
T1: Soft starterM1: Motorn: Emergency-Stop0: Off/Soft stop1: FWD2: REV
F2
Q1
M3~
1L1
5L3
3L2
2T1
6T3
4T2
M1
T1
F1
13 14
L1L2L3PE
TOR
I I I
FWD
0 V
REV
T1
S3
F1
1 0 2
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Electronic motor starters and drives
Connection examples, DS4
Moeller W
iring Manual 02/05
2-43
2
Connection of reversing soft starter without mains contactor
T1
K1
FWD
0 V
K2
REV
66) 595-9616
Q1: Line protectionF1: Overload relayF2: Semiconductor fuse for type “2” coordination, in
addition to Q1
T1: Semiconductor contactor
M1: Motor
n: Emergency-StopS1: Soft stopS2: Soft start FWDS2: Soft start REV
F2
Q1
M3~
1L1
5L3
3L2
2T1
6T3
4T2
M1
T1
F1
13 14
L1L2L3PE
TOR
I I I
S1
F1
K1
K1
K2
K2
K2 K1
S2 S3
L01/L+
L00/L–
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Electronic motor starters and drivesConnection examples, DS4
Moeller Wiring Manual 02/05
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F
Connection of reversing soft starter with mains contactor
Q1: Line protectionQ11: Mains contactor (optional)F1: Overload relayF2: Semiconductor fuse for type “2”
coordination, in addition to Q1T1: Semiconductor contactorM1: Motor
F2
Q11
Q1
M3~
1L1
5L3
3L2
2T1
6T3
4T2
M1
T1
F1
13 14
L1L2L3PE
TOR
I I I
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Electronic motor starters and drives
Connection examples, DS4
Moeller W
iring Manual 02/05
2-45
2
T1
K3
FWD
0 V
K4
REV
L01/L+
66) 595-9616
n: Emergency-StopS1: Q11 OffS2: Q11 On
K1
K1S2
S1 K2tt = 10 s
Q11
K1
F1
K2t K3
K3FWD
K4
K4
K4 K3
K1
REV
L00/L–
Soft Start
Soft Stop
Soft Start
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Electronic motor starters and drivesConnection examples, DS4
Moeller Wiring Manual 02/05
2
F
Bypass connection, single direction of rota-tion
Caution!The DS4-...-MX(R) devices have built-in bypass contacts. The examples below therefore apply only for DS4-...-M. If an external bypass for devices with reversing function (DS4-...-MR) is to be fitted, you must include an additional bypass contactor is required the second direction of rotation as well as additional interlocks to prevent a short-circuit through the bypass contactors.The bypass connection allows a direct connection of the motor to the mains to suppress heat dissipation through the soft starter. The bypass contactor is actuated once the soft starter has completed the acceleration phase (i.e. once mains voltage is reached). By default, the Top-of-Ramp
function is mapped to relay 13/14. The soft starter controls the bypass contactor so that no further user action is required. Because the bypass contactor is switched only at zero current and does not, therefore, have to switch the motor load, an AC1 layout can be used. Suitable bypass contactors are listed in appendix “Technical data”.If an Emergency-Stop requires an immediate disconnection of the voltage, the bypass may have to switch under AC3 conditions (for example if the Enable signal is removed with a command or the soft stop ramp time is 0). In this case, the circuit must be laid out so that either a higher-priority isolating element trips first or the bypass must be laid out to AC3.
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Electronic motor starters and drivesConnection examples, DS4
Moeller Wiring Manual 02/05
F
2
S3 = Soft start/stopQ1 = Line protectionQ21 = Bypass contactorF1 = Overload relay
F2 = Semiconductor fuse for type “2” coordination, in addition to Q1T1 = Semiconductor contactorM1 = Motor
F2
Q1
M3~
1L1
5L3
3L2
2T1
6T3
4T2
M1
T1
F1
13 14
L1L2L3PE
TOR
I I I
Q21
T1
S3
F1
A1
0 1
A2Q21
A1
A2
T113
14
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Electronic motor starters and drivesConnection examples, DS4
Moeller Wiring Manual 02/05
2
F
Pump connection, single direction of rota-tion
In pump applications the bypass contactor is often required to provide emergency operation capability. This is achieved with a service switch that allows a changeover from soft starter operation to DOL starting through the bypass contactor. In the latter setting the soft starter is fully bypassed. But because the output circuit must not be opened during operation, the
interlocks ensure that changeovers take place only after a stop.
Note:In contrast to simple bypass operation, the bypass contactor must be laid out to AC3 here. For a suitable contactor, see our recommended mains contactor in appendix “Technical data”.
Pump
Q1: Line protectionQ11: Mains contactor (optional)Q21: Bypass contactorQ31: ContactorF1: Overload relayF2: Semiconductor fuse for type “2”
coordination, in addition to Q1T1: Semiconductor contactorM1: Motor
F2
Q11
Q1
M3~
1L1
5L3
3L2
2T1
6T3
4T2
M1
T1
F1
13 14
L1L2L3PE
TOR
I I I
Q21
Q31
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Electronic motor starters and drives
Connection examples, DS4
Moeller W
iring Manual 02/05
2-49
2
Pump control
13
14
K4
6t
Q21
T1 TOR K2
g
66) 595-9616
n Emergency-Stopa t > t-Stop + 150 msb Enable
c Handd Autoe Soft start/soft stop
f RUNg Bypass
b
a
A1
A2T1K5
S5 K5 K5
S4
K
Q11 Q31
K3 K4
K3E2
39T1K1
S3 K1
K1
K1
K2
S2
K2
K1
K4
K3
S1
K2
Q21
K6t
c d e f
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Electronic motor starters and drivesConnection examples, DS4
Moeller Wiring Manual 02/05
2
F
Starting several motors sequentially with a soft starter (cascaded control)
When starting several motors one after the other using a soft starter, keep to the following changeover sequence:• Start using soft starter• Switch on bypass contactor• Disable soft starter• Switch soft starter output to the next motor• Restart
a page 2-52n Emergency-StopS1: Q11 OffS2: Q11 Ona Soft start/soft stop
b Simulation of RUN relayTiming relay K2T simulates the RUN signal of the DS4. The set off-delay time must be greater than the ramp time. To be on the safe side, use 15 s.
c RUN
d Off-time monitoringSet the timing relay K1T so that the soft starter is not thermally overloaded: calculate the time from the soft starter’s permissible operating frequency or select a soft starter that allows the required time to be reached.
e Changeover monitoringSet the timing relay to a return time of about 2 s. This ensures that the next motor branch can not be connected as long as the soft starter is running.
a page 2-53i Switching off individual motorsThe Off switch results in all motors being switched off at the same time. To switch off individual motors, you need to make use of N/C contact i.
Observe the thermal load on the soft starter (starting frequency, current load). If motors are to be started at short intervals, you may have to select a soft starter with a higher load cycle.
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Electronic motor starters and drives
Connection examples, DS4
Moeller W
iring Manual 02/05
2-51
2
Soft starters with motor cascade
Qn
nM3~
Qm
I> I> I>
tional)r type “2” coordination
66) 595-9616
T1
L1L2L3
1L1
2L2
3L3
2T1
4T2
6T3
NPE
Q21
F2
13 14
Q23
Q11
M1M3~
Q22 Q31
Q33
M2M3~
Q32
Qn3
M
TOR
I> I> I>
Q11 = Mains contactor (opF2 = Semiconductor fuse foT1 = Soft starterM1, 2,... = Motor
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Electronic motor starters and drives
Connection examples, DS4
Moeller W
iring Manual 02/05
2-52
2
Soft starter with motor cascade, control section part 1
d
K1T K4T
K4 K4
e
66) 595-9616
a c
A1
A2T1
K213
14
K4
K2T
K3
T1 TOR
K1
S2 K1
S1
Q21
Q31
K2
K1T K4
K1 K4 K12 K22
Qn1
Kn2
b
K2TQ11
For Immediate Delivery call KMParts.com at (8
Electronic motor starters and drives
Connection examples, DS4
Moeller W
iring Manual 02/05
2-53
2
Soft starter with motor cascade, control section part 2
page 2-50
c
Qn
Qm
QmQm
Kn2
K3
Qn
i
66) 595-9616
a Motor 1b Motor 2
c Motor ni a section “i Switching off individual motors”,
Q21
Q22
Q22Q22
K12
K3
Q11
Q21
a b
K12
Q31
Q32
Q32Q32
K22
K3
K12
Q31
Q31
Q21
K22
K4T
K(n-1)2
Qn
Q(n-1)1
Kn2
K4T
i i
For Immediate Delivery call KMParts.com at (8
Moeller Wiring Manual 02/05
2
F
Electronic motor starters and drivesConnection examples, DM4
Enable/immediate stop without ramp function (e.g. for Emergency-Stop)
The digital input E2 is programmed in the factory so that it has the "Enable" function. The soft starter is enabled only when a High signal is applied to the terminal. The soft starter cannot be operated without enabling signal.In the event of wire breakage or interruption of the signal by an Emergency-Stop circuit, the regulator in the soft starter is immediately blocked and the power circuit disconnected, and after that the "Run“ relay drops out.Normally the drive is always stopped via a ramp function. When the operating conditions require
an immediate de-energization, this is effected via the enabling signal.
Caution!You must in all operating conditions always first stop the soft starter ("Run“ relay scanning), before you mechanically interrupt the power conductors. Otherwise a flowing current is interrupted – thus resulting in voltage peaks, which in rare cases may destroy the thyristors of the soft starter.
n: Emergency-StopS1: OffS2: OnT1: (E2 = 1 a enabled)
S1
S2
K1E2
39
K1
K1
T1
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Electronic motor starters and drivesConnection examples, DM4
Moeller Wiring Manual 02/05
F
2
Linking the overload relay into the control system
We recommend using an external overload relay instead of a motor-protective circuit-breaker with built-in overload relay. This allows controlled ramping down of the soft starter through the control section in the event of an overload.
Caution!Connecting the motor directly to mains power can cause overvoltage and destruction of the soft starter’s semiconductors.There are two options, which are shown in the following diagram:
n: Emergency-StopS1: OffS2: OnT1: Enable (E2 = 1 h enabled)a The signalling contacts of the overload relay
are linked into the On/Off circuit. In the event of a fault, the soft starter decelerates for the set ramp time and stops.
b The signalling contacts of the overload relay are linked into the enabling circuit. In the event of a fault, the soft starter’s output is immediately de-energized. Although the soft starter shuts off its output, the mains contactor remains energized. To de-energize the mains contactor as well, include a second contact of the overload relay in the On/Off circuit.
E2
39T1K1
S2 K1
K1F1
a b
S1
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Electronic motor starters and drivesConnection examples, DM4
Moeller Wiring Manual 02/05
2
F
DM4 with overload relay Standard connectionFor isolation from the mains, either a mains contactor upstream of the soft starter or a central switching device (contactor or main switch) is necessary.
Control section
T1
L1L1
2L2
3L3
2T1
4T2
6T3
N
Q11
Q1
F1
F2
T1 T2
~=
M
3~
L2
NL3
PE
L1
I> I> I>
+ Th
erm
istor
– Th
erm
istor
S1: Soft startS2: Soft stopa Enableb Soft start/Soft stop
ba
E1
39T1
E2
39T1K1
S2
K1
K1
S1
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Electronic motor starters and drivesConnection examples, DM4
Moeller Wiring Manual 02/05
F
2
DM4 without separate mains contactor
a Control voltage through Q1 or F1 or through Q2
b See control sectionc Motor current indication
~=
~=
7
MM1
mot
T1
F2
3~
L1L2L3NPE
L N E1 E2 39
13
K1;RUN K2;TOR K3 K4
14 23 24 33 34 43
1L1
3L2
5L3
2T1
4T2
6T3
+12 8 17
62 63
PE
0 V
(E1;
E2)
+12
V D
C
REF
1: 0
–10
V
REF
2: 4
–20
mA
T1 T2
F1
⎧ ⎪ ⎨ ⎪ ⎩
Q1 Q2
a
c
b
I
I> I> I> I> I> I>
- The
rmist
or
+ T
herm
istor
0 V
Anal
og
Anal
og O
ut 1
Anal
og O
ut 2
0 V
Anal
og
Star
t/Sto
p
Enab
le
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Electronic motor starters and drivesConnection examples, DM4
Moeller Wiring Manual 02/05
2
F
DM 4-340 with separate mains contactor
Control section
n Emergency-StopS1: OffS2: Ona Enableb Soft start/Soft stop
a b
S1
S2
K1E1
39
E2
39
S4
S3
K1
K1
K2K1
Q11
K2 T1 RUNK2
T1 K2 T1 Q11
13
14
33
34T1 OK(no error)
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Electronic motor starters and drivesConnection examples, DM4
Moeller Wiring Manual 02/05
F
2
DM4-340 with separate mains contactor
a Control voltage through Q1 or F1 or through Q2
b See Control sectionc Motor current indication
~=
~=
7
MM1
mot
T1
F2
3~
L1L2L3NPE
L N E1 E2 39
13
K1;RUN K2;TOR K3 K4
14 23 24 33 34 43
1L1
3L2
5L3
2T1
4T2
6T3
+12 8 17
62 63
PE
0 V
(E1;
E2)
+12
V D
C
REF
1: 0
–10
V
REF
2: 4
–20
mA
T1 T2
F1Q11
⎧ ⎪ ⎨ ⎪ ⎩
I >I > I >
Q1
I >I > I >
Q2
b
a
cI
- The
rmist
or
+ T
herm
istor
0 V
Anal
og
Anal
og O
ut 1
Anal
og O
ut 2
0 V
Anal
og
Star
t/Sto
p
Enab
le
2-59or Immediate Delivery call KMParts.com at (866) 595-9616
Electronic motor starters and drivesConnection examples, DM4
Moeller Wiring Manual 02/05
2
F
Bypass connection
After the run-up (full mains voltage reached) the DM4 soft starter actuates the bypass contactor. Thus, the motor is directly connected with the mains.Advantage:• The soft starter’s heat dissipation is reduced to
the no-load dissipation.• The limit values of radio interference class "B“
are adhered to.
The bypass contactor is now switched to a no-load state and can therefore be AC-1 rated.If an immediate de-energization is required in the event of an Emergency-Stop, then the bypass contactor must also switch the motor load. In this case it must be AC-3 rated.
Control section
n Emergency-StopS1: OffS2: Ona Enableb Soft start/Soft stop
a b
S1
S2
K1E2
39
E1
39
S4
S3
Q21
K1
K1 K1K2
K1
T1 T1
K2
K2
T1 RUN
Q11
13
14
23
24T1 TOR
Q21
33
34
T1 OK(no error)
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Electronic motor starters and drivesConnection examples, DM4
Moeller Wiring Manual 02/05
F
2
DM4-340 with bypass
a Control voltage through Q1 or F1 or through Q2
b See Control sectionc Motor current indication
~=
~=
7
MM1
mot
G1
F2
3~
L1L2L3NPE
L N E1 E2 39
13
K1;RUN K2;TOR K3 K4
14 23 24 33 34 43
1L1
3L2
5L3
2T1
4T2
6T3
+12 8
PE
17
62 63
0 V
(E1;
E2)
+12
V D
C
REF
1: 0
–10
V
REF
2: 4
–20
mA
T1 T2
F1
Q11
⎧ ⎪ ⎨ ⎪ ⎩
Q1 Q1
b
a
c
Q21
I> I> I> I> I> I>
I
- The
rmist
or
+ T
herm
istor
0 V
Anal
og
Anal
og O
ut 1
Anal
og O
ut 2
0 V
Anal
og
Star
t/Sto
p
Enab
le
2-61or Immediate Delivery call KMParts.com at (866) 595-9616
Electronic motor starters and drivesConnection examples, DM4
Moeller Wiring Manual 02/05
2
F
Delta connection
A delta connection allows the use of a soft starter with a lower rating than the motor it is used to control. Connected in series with each motor winding, the current the soft starter needs to supply is reduced by a factor of W3. This layout has the drawback that six motor supply cables are needed. Apart from that there are no restrictions. All soft starter functions remain available.
For this you have to connect the motor in delta and the voltage in this connection method must agree with the mains voltage. For 400 V mains voltage the motor must therefore be marked with 400 V/690 V.
Control section
n Emergency-StopS1: OffS2: Ona Enableb Soft start/Soft stopE2: EnableT1: +thermistorT2: –thermistor
a b
S1
S2
K1E1
39
E2
39
S4
S3
K1
K1
K2K1
Q11
K2
T1 K2 T1 Q11
T1 RUN13
14
33
34T1 OK(no error)
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Electronic motor starters and drivesConnection examples, DM4
Moeller Wiring Manual 02/05
F
2
DM4-340 Delta
a Control voltage through Q1 or F1 or through Q2
b See Control sectionc Motor current indication
~=
~=
7
MM1
mot
T1
F2
3~
L1L2L3NPE
L N E1 E2 39
13
K1;RUN K2;TOR K3 K4
14 23 24 33 34 43
1L1
3L2
5L3
2T1
4T2
6T3
+12 8
PE
17
62 63
0 V
(E1;
E2)
+12
V D
C
REF
1: 0
–10
V
REF
2: 4
–20
mA
T1 T2
F1
Q11
⎧ ⎪ ⎨ ⎪ ⎩
I >I > I >
Q1
I >I > I >
Q2
b
c
a
W1
V1 U1
W2
V2 U2
I
0 V
Anal
og
Anal
og O
ut 1
Anal
og O
ut 2
0 V
Anal
og
Star
t/Sto
p
Enab
le
Ther
mist
or
Ther
mist
or
2-63or Immediate Delivery call KMParts.com at (866) 595-9616
Electronic motor starters and drivesConnection examples, DM4
Moeller Wiring Manual 02/05
2
F
Starting several motors sequentially with a soft starter
When starting several motors one after the other using a soft starter, keep to the following sequence when changing over:• Start using soft starter• Switch on bypass contactor• Block soft starter• Switch soft starter output to the next motor• Restart
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Electronic motor starters and drivesConnection examples, DM4
Moeller Wiring Manual 02/05
F
2
DM
4-34
0 ca
scad
e
~T1
L1 L2 L3
L
1L1
2L2
3L3
2T1
4T2
6T3
N
N
PE
PE
Q1
Q21F2
T1T2
=
F1Q
2
Q23
M1
M 3~
Q22
Q32
Q33
M2
M 3~
Q32
Qn
Qn3
Mn
M 3~
Qm
I>I>
I>I>
I>I>
I>I>
I>
I>I>
I>
+ Thermistor
– Thermistor
2-65or Immediate Delivery call KMParts.com at (866) 595-9616
Electronic motor starters and drives
Connection examples, DM
4
Moeller W
iring Manual 02/05
2-66
2
Control section part 1
c d
13
14
4
UN
K1T K4T
K4 K4
66) 595-9616
a b
E1
39T1
K2
K
T1R
23
24
K3
T1 TOR
E2
39T1K1
S2 K1 K1
S1Q21 Q31
K2
K1T K4
K1 K4
Q11
K12 K22
Qn
Kn2
33
34T1 OK(no error)
For Immediate Delivery call KMParts.com at (8
Electronic motor starters and drives
Connection examples, DM
4
Moeller W
iring Manual 02/05
2-67
2
DM4-340 cascade, control section part 2
ppropriate time relates to the t the soft starter so that the required
motor branch can not be connected the same time. To switch off motors
c
Qn
m
Qm
Kn2
Qm
K3
S3
66) 595-9616
n Emergency-StopS1: OffS2: Ona Enableb Soft start/Soft stop
c Set the timing relay so that the soft starter is not thermally overloaded. The aadmissible operating frequency of the selected soft starter. Alternatively, selectimes can be attained.
d Set the timing relay to a return time of about 2 s. This ensures that the next as long as the soft starter is running. N/C contact S1 switches all motors off atindividually, you need to make use of N/C contact S3.
Q21
Q22
Q22
K12
Q22
K3
Q11
Q21
a b
K12
Q31
Q32
Q32
K22
Q32
K3
K12
Q31
Q21
Q31
K22
K4T
Q
K(n-1)2
Qn
Q(n-1)1
Kn2
QnK4T
S3 S3
For Immediate Delivery call KMParts.com at (8
NotesMoeller Wiring Manual 02/05
2
F
2-68or Immediate Delivery call KMParts.com at (866) 595-96162-69
ElectroConnec
Block diagram, DF5 and DV5
1 +24 V
Moeller W
iring Manual 02/05
nic motor starters and drives
2
tion examples, DF5 and DV5
2 12 11
RUN
FA1
RJ 45RS 422
66) 595-9616
BR* DV5 only6* DV5 only5* Input RST for DF5
5* L
i
PTC 0 V
+10
V 0 V
PEWVU
M3 ~
K11K12 K14
e
FM H O OI L CM
10 V
(PW
M)
4...2
0 m
A
0...1
0 V
–+
–+
L+
BR*
DC–
DC+
RBr
PEL3L2L1
3
PENL
RST
FF2
FF1
REV
FWD
3 2 16* 4 P24
RST
For Immediate Delivery call KMParts.com at (8
Electronic motor starters and drivesConnection examples, DF5 and DV5
Moeller Wiring Manual 02/05
2
F
Basic control
Example 1Reference input through potentiometer R1Enable (START/STOP) and direction control through terminals 1 and 2 with internal control voltagen: Emergency-Stop circuitS1: OffS2: OnQ11: Mains contactorF1: Line protectionPES: Cable screen PE connectionM1:Motor, 3-phase 230 V
Note:For EMC-conformant mains connection, suitable radio interference suppression measures must be implemented according to product standard IEC/EN 61800-3.
DILM12-XP1
(4th pole can be broken off)
DILM
Q11
S2
S1
Q11
2
3 5
4 6
A1
A2
1 13
14
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Electronic motor starters and drivesConnection examples, DF5 and DV5
Moeller Wiring Manual 02/05
F
2
Wiring
– Single-phase frequency inverter DF5-322-...– Directional control through terminals 1 and 2– External reference input from potentiometer R1
FWD: Clockwise rotating field enableREV: Anticlockwise rotating field enable
T1 DC+ DC–L+ U V W PE O LH 2 1 P24
PES
PES
PE
PES
PES
MM1
X1
3 ~
e R11
4K7
PE
LNPE
1 h 230 V, 50/60 Hz
L N
Q11
PEF1
M
REV
PES
M
FWD
FWD
f
REV
M
M
t
2-71or Immediate Delivery call KMParts.com at (866) 595-9616
Electronic motor starters and drivesConnection examples, DF5 and DV5
Moeller Wiring Manual 02/05
2
F
DF5-340-... frequency inverters with EMC-conformant connection
Control sectionExample 2Reference input through potentiometer R11 (fs) and fixed frequency (f1, f2, f3) through terminal 3 and 4 with internal control voltageEnable (START/STOP) and rotating field selection through terminal 1n: Emergency-Stop circuitS1: OffS2: OnQ11: Mains contactorR1: Line reactorK1: RFI filterQ1: Line protectionPES: Cable screen PE connectionM1:Motor, 3-phase 400 V
FWD: Clockwise rotating field enable, reference frequency fS
FF1: Fixed frequency f1FF2: Fixed frequency f2FF1+FF2: Fixed frequency f3
Q11
S2
Q1
S1
Q11
2-72or Immediate Delivery call KMParts.com at (866) 595-9616
Electronic motor starters and drivesConnection examples, DF5 and DV5
Moeller Wiring Manual 02/05
F
2
Wiring
3 h 400 V, 50/60 Hz
T1
W2
L1 L2 L3 PE
L1L2L3PE
Q11
Q1
V2U2
L1 L2 L3
W1V1U1
R1
K1
PE
PE
DC+ DC–L+ U V W PE O LH 4 3 1 P24
PES
PES
PE
PES
PES
MM1
X1
3 ~
PEIII
e
FF2
FF1
FWD
R1
FF1
FF2
FWD
f1f2
f3fs = fmax
f
2-73or Immediate Delivery call KMParts.com at (866) 595-9616
Electronic motor starters and drivesConnection examples, DF5 and DV5
Moeller Wiring Manual 02/05
2
F
Version A: Motor in delta circuit Motor: P = 0.75 kWMains: 3/N/PE 400 V 50/60 Hz
The 0.75 kW motor described below can be delta-connected to a single-phase 230 V mains (version A) or star-connected to a 3-phase 400 V mains.Select the appropriate frequency inverter for your mains voltage:• DF5-322 for 1 AC 230 V• DF5-340 for 3 AC 400 V• Model-specific accessories for
EMC-complaint connection.
PE
LNPE
2
L N
1
R1
PE
PE
1 h 230 V, 50/60 Hz
L
K1
T1
N
Q11
DC+ DC–L+ U V W PE
PES
PES
PES
PES
MM1
X1
3 ~
F1FAZ-1N-B16
DEX-LN1-009
DE5-LZ1-012-V2
DF5-322-075DV5-322-075
230 V4 A
0.75 kW
DILM7+DILM12-XP1
e
U1 V1 W1
W2 U2 V2
/ 400 V230 4.0 / 2.30,75S1 0.67ϕcoskW
rpm1410 50 Hz
A
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Electronic motor starters and drivesConnection examples, DF5 and DV5
Moeller Wiring Manual 02/05
F
2
Version B: Motor in star circuit
3 h 400 V, 50/60 Hz
W2
L1 L2 L3 PE
L1L2L3PE
Q11
Q1
V2U2
L1 L2 L3
W1V1U1
R1
K1
PE
PE
III
U1 V1 W1
W2 U2 V2
T1 DC+ DC–L+ U V W PE
PES
PES
PES
PES
MM1
X1
3 ~
PKM0-10
DEX-LN3-004
DE5-LZ3-007-V4
DF5-340-075DV5-340-075
400 V2.3 A
0.75 kW
DILM7
e
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NotesMoeller Wiring Manual 02/05
2
F
2-76or Immediate Delivery call KMParts.com at (866) 595-96162-77
ElectroConnec
Block diagram, DF6
+24 V
Moeller W
iring Manual 02/05
nic motor starters and drives
2
tion examples, DF6
O OI L O2
RJ 45RS 422
SN
RP
SN
SP
RS 485
4...2
0 m
A
–10
V...+
10 V
0...1
0 V
+10
V 0 V
66) 595-9616
BR* DF6-320-11K, DF6-340-11K and DF6-340-15K only
PEWVU
M3 ~
K11K12 K14
e
PLC CM1 FM AMI HAMTHK23 K34K24 K33
–+
L+
BR*
DC–
DC+
RBr
PEL3L2L1
3 RST
AT FF2
FF1
REV
3 4 51 2 FW P24
FWD
K1 K2 K3 –+
i
PTC
10 V
(PW
M)
0...+
10 V
4...2
0 m
A
For Immediate Delivery call KMParts.com at (8
Electronic motor starters and drivesConnection examples, DF6
Moeller Wiring Manual 02/05
2
F
Frequency inverter DF6-340-...
Control sectionExample: Temperature regulation for ventillation system. When the room temperature rises, the fan speed must increase. The target temperature can be set with potentiometer R11 (e.g. 20 °C)
n: Emergency-Stop circuitS1: OffS2: OnQ11: Mains contactorQ1: Line protectionPES: Cable screen PE connectionK1: RFI filter
Q11
S2
S1
Q11
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Electronic motor starters and drivesConnection examples, DF6
Moeller Wiring Manual 02/05
F
2
Wiring
3 h 400 V, 50/60 Hz
T1
L1 L2 L3 PE
L1L2L3PE
Q11
Q1
L1 L2 L3
K1 PE
DC+ DC–L+ U V W PE HOI
PID
O L FW P24
PES
PES
PE
4...2
0 m
A
PES
PES
MM1
X1
3 ~
PEIII
e
4K7
R11
PES
M
FWDB1i
50 ˚C
20 ˚C
100 %
20 mA4 mA
40 %
10.4 mA
2-79or Immediate Delivery call KMParts.com at (866) 595-9616
Moeller Wiring Manual 02/05
2
F
Electronic motor starters and drivesConnection examples, DV6
Bloc
k di
agra
m, D
V6
BR*
DV6-
340-
075,
DV6
-340
-11K
and
DV6
-320
-11K
onl
y
PEW
VU
M 3 ~
K11
K12
K14
e
L+ BR*
DC–
DC+
R Br
PEL3
L2L1
ROTO
3
K1
J51
RST
AT
JOG
FRS
2CH
34
51
26
1314
1511
12
FF2
FF1
REV
78
FWFWD
PLC
CM1
FMAM
IH
OO
IL
O2
AMTH
CM2
–+
P24
+24
V
RJ 4
5RS
422
SN RP SN SP
RS 4
85
– +
i
PTC
10 V (PWM)
4...20 mA
–10 V...+10 V
0...10 V
+10 V
0 V
0...+10 V
4...20 mA
FA1
RUN
OL
QTQ
IP
+24
VP2
4
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Electronic motor starters and drives
Connection examples, DV6
Moeller W
iring Manual 02/05
2-81
2
Block diagram: speed control circuit, vector frequency inverter DV6 with encoder interface module DE6-IOM-ENC
PWMuu'
M3 h
66) 595-9616
KREF VG+
–
KFB
+ +
VF
G
APR ASR
Vn–
ACR
FFWG
Vii'
FB
o'
ov
v' e+ +
–
i
For Immediate Delivery call KMParts.com at (8
Electronic motor starters and drivesConnection examples, DV6
Moeller Wiring Manual 02/05
2
F
DV6-340-... vector frequency inverters with built-in encoder module (DE6-IOM-ENC) and external DE4-BR1-... braking resistor
Control section
Example:Hoisting gear with speed regulation, control and monitoring through PLCMotor with thermistor (PTC resistor)n: Emergency-Stop circuitS1: OffS2: OnQ1: Line protectionQ11:Mains contactorK2: Control contactor enableRB: Braking resistorB1: Encoder, 3 channelsPES:Cable screen PE connectionM11:Holding brake
K2 M11
S2
S1
Q11
Q11
Q11 G1
TI
K12
T2
K11
K2
K3
Q1
RB
SPS
Enable
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Electronic motor starters and drivesConnection examples, DV6
Moeller Wiring Manual 02/05
F
2
Wir
ing
3 h
400
V, 5
0/60
Hz
T1R B
L1L2
L3PE
L1 L2 L3 PE
Q11
Q1
L1L2
L3
K1PE
DC+
DC–
BRL+
UV
WPE
ThCM
1CM
211
1213
PES
PES
M 3 ~
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der
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n 1n 2
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i
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m
a
b
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Moeller Wiring Manual 02/05
2
F
Installing encoder interface module DE6-IOM-ENC
3
1
2 4
1
M3 x 8 mm
0.4 – 0.6 Nm
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Moeller Wiring Manual 02/05
F
2
EG5
F 2
0 m
ZB4-102-KS1
15
M4
1 2
3
EG5
Order ZB4-102-KS1 separately!
EP5
5 V H
–
+
TTL (RS 422)A A B B C C
EG5 EAP EAN EBP EBN EZP EZN
M3 h
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Moeller Wiring Manual 02/05
2
F
Electronic motor starters and drivesRapid Link system
Rapid Link system
Rapid Link is a modern automation system for material handling systems. Because the Rapid Link modules can be simply fitted into a power and data bus, it allows electrical drives to be installed and taken into operation much more quickly than with conventional methods.
Note: Before you take the Rapid Link system into operation, you must obtain and read manual AWB2190-1430. This publication is available for download as PDF file from the Moeller Support Portal.
.
Function modules: a Interface control unit r the interface to the
open field busb Disconnect control unit r power infeed with
lockable rotary handle; r circuit-breaker to protect from overload and short-circuits
c Motor control unit r 3-phase electronic overload protection with DOL starter, expandable DOL starter or reversing starter function
d Speed control unitr controls three-phase asynchronous motors with four fixed speeds, bidirectional operation and soft starting
e Operator control unit r local manual control for conveying equipment
f Logic control unit r Intelligent unit for auton-omous processing of I/O signals
ab
cd
e
k
k
f
g
k
lm
m
m
j
h i
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Moeller Wiring Manual 02/05
F
2
Power and data bus:g AS-Interface® flat cableh Link for M12 connector cablesi Flexible busbar for 400 V h and 24 Vj Power feed for flexible busbark Plug-in power link for flexible busbarl Round cable for 400 V h and 24 Vm Plug-in power link for round cable
EngineeringThe Rapid Link function modules are installed immediately adjacent to the drives. They can be connected to the power and data bus at any point without having to interrupt the bus.The AS-Interface® data bus is a system solution for networking different modules. AS-Interface® networks are quick and easy to implement.AS-Interface® uses a geometrically coded, unscreened flat cable with a cross-section of 2 x 1.5 mm2. It is used to transmit both power as well as all data traffic between PLC and I/O and – to some extent – supplies the connected devices with energy. The installation meets the usual requirements. Engineering is simplified by full flexibility in system layout and mounting.When a link is connected to the flat cable, two metal pins pierce through the cable’s jacket and into the two cores to establish a contact with the AS-Interface® cable. There is no need to cut and strip cables, apply ferrules or connect individual cores.
a Piercing pinsb Flat cable, protected against polarity reversal
The power bus supplies the Rapid Link function modules with main and auxiliary power. Plug-in tap-off points can be quickly and safely connected at any point along the bus. The power bus can consist either of a flexible busbar (flat cable) or standard round cables:• The flexible busbar RA-C1 is a 7-core flat cable
(cross-section 2.5 mm2 or 4 mm2) and has the following structure:
• For the power bus you can also use conventional round cables (cross-section 7 x 2.5 mm2 or 7 x 4 mm2, outer core diameter < 5 mm, flexible copper conductor to IEC/EN 60228) with round cable feeders RA-C2. The cable can have an external diameter of 10 to 16 mm.
a a
b–+
10
6.5
4
2
WhiteRedGreen/yel-lowBlueBlackBrownBlack
ML+PENL3L2L1
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F
Warning! • Rapid Link must be operated only on
three-phase systems with earthed star point and separate N and PE conductors (TN-S network). It must not be operated unearthed.
• All devices am connected to the power and data bus must also meet the requirements for safe isolation according to IEC/EN 60947-1 Annex N or IEC/EN 60950. The 24 V DC power supply unit must be earthed on the secondary side. The 30 V DC PSU for the
AS-Interface®-/RA-IN-power supply must meet the safe isolation requirements according to SELV.
The power sections are supplied through disconnect control unit RA-DI (see illustration below) with:• Ie = 20 A/400 V at 2.5 mm2 • Ie = 20 to 25 A/400 V at 4 mm2.Round cables up to 6 mm2 can be used to feed power to disconnect control unit RA-DI.
Disconnect control unit RA-DI protects the cable from overload and provides short-circuit protection for the cable as well as all connected RA-MO motor control units.
The combination of RA-DI and RA-MO fulfills the requirements of IEC/EN 60947-4-1 as starter with type “1” coordination. That means that the contactor’s contacts in the RA-MO are allowed to weld in the event of a short-circuit in the motor terminal strip or the motor supply cable. This arrangement also conforms to IEE wiring regulations.
e
M3h
1.5 mm2
2.5 mm2 / 4 mm2
3 AC 400 Vh,50/60 Hz 24 V H
RA-DI
Q1
M3hee
M3h
1.5 mm2 1.5 mm2
RA-MO RA-SP RA-MO
M3he
Motor/SpeedControl Units
DisconnectControl Unit RA-DI
F 6 mm2
1.5 mm21.5 mm2 1.5 mm2
1.5 mm2
RA-SP
1.5 mm2
PES
PES
PES
PES
⎧ ⎨ ⎩
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Moeller Wiring Manual 02/05
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2
The affected RA-MO motor control unit must be replaced after a short-circuit!When you configure a power bus with a disconnect control unit, observe the following:• Even in the event of a 1-pole short-circuit at the
line end, the short-circuit current must exceed 150 A.
• The total current of all running and simultaneously starting motors must not exceed 110 A.
• The total load current (about 6 x mains current) of all connected speed control units must not exceed 110 A.
• Observe the voltage drop in your specific application.
Instead of the disconnect control unit, you can use a 3-pole miniature circuit-breaker In F 20 A and B or C characteristic. Here, you must observe the following:• The let-through energy J in the event of a
short-circuit must not exceed 29800 A2s.• Therefore the short-circuit current Icc at the
mounting location must not exceed 10 kA a characteristic curve.
i dt[A s]
2 A
1 A
0.5 A
10 A13 A16 A20 A25 A32 A40 A
50 A63 A
4 A
3 A
6 A
0.5 1.5 151 2 3 4 5 6 7 8 9 10
103
104
105
8
6
4
2
1.5
8
6
4
2
8
6
4
3
1.5
2
2FAZ-BFAZ-C
FAZ-...-B4HI
cc eff [kA]I
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Motor control unit
Motor control unit RA-MO allows the direct bidirectional operation of three-phase motors. The rated current is adjustable from 0.3 to 6.6 A (0.09 to 3 kW).
ConnectionsMotor control unit RA-MO is supplied ready for installation. The connection to the AS-Interface® data bus and the motor is described below. The connection to the power bus is described in the earlier general section “Rapid Link system”.
The unit is connected to AS-Interface® through an M12 plug with the following PIN assignment:
External sensors are connected through an M12 socket.
On the RA-MO the motor feeder features a plastic-encapsulated socket. The length of the motor cable is limited to 10 m.The motor is connected through a halogen-free, 8 x 1.5 mm2, unscreened, DESINA-conformant motor supply cable with a length of 2 m (SET-M3/2-HF) or 5 m (SET-M3/5-HF).Alternatively you can assemble your own motor supply cable with plug SET-M3-A with 8 x 1.5 mm2 contacts
400 VF 2.2 kW
M3 h
3 h 400 V PE50/60 Hz24 V H
M12 plug PIN Function
1 ASi+
2 –
3 ASi–
4 –
PIN Function
1 L+
2 I
3 L–
4 I
1 4 6
3 5 8
PE 7
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2
Motor connection without thermistor:
If motors are connected without PTC thermistor (thermoclick), cables 6 and 7 must be linked at the motor; otherwise the RA-MO issues a fault message.
Motor connection with thermistor:
SET-M3/...
1 1 U – –
• – – – –
3 3 W – –
4 5 – – B1 (h/–)
5 6 – T1 –
6 4 – – B2 (h/+)
7 2 V – –
8 7 – T2 –
PE PE PE – –
M3h
i
5 8 1 7 3 PE
T1 T2
M 3 h
U V W PE
6 7 1 2 3 *
e
5 8 1 7 3 PE
T1 T2
M 3 h
i
U V W PE
6 7 1 2 3 *
e
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F
Note: The two connections illustrated below apply only for motor control unit RA-MO.Connecting a 400 V AC brake::
Connecting a 400 V AC brake with rapid braking:
For controlling braking motors, their manufacturers provide braking rectifiers, which are fitted in the motor terminal strip. If the DC circuit is opened at the same time, the voltage at the braking coil drops off much quicker, causing the motor to also brake more quickly.
1 7 3 PE
M 3 h
PE
1 2 3 *
e
1 74 6 3 PE
M 3 h
PEWVUB2B1
1 25 4 3 *
e
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2
Speed Control Unit RA-SP
Speed control unit RA-SP is used for electronic variable speed control of three-phase motors.Note: Unlike the other Rapid Link system devices, the RA-SP speed control unit’s enclosure is fitted with a heat sink and requires an EMC-conformant mounting and connection.
ConnectionsSpeed control unit RA-SP is supplied ready for connection. The connection to the AS-Interface® data bus and the motor is described below. The connection to the power bus is described in the earlier general section “Rapid Link system”..
The unit is connected to AS-Interface® through an M12 plug with the following PIN assignment:
On the RA-SP the motor feeder features a metal-encapsulated socket. To meet EMC requirements, this is connected with PE and heat sink over a large area. The matching plug is also metal-encapsulated and the motor cable is screened. The length of the motor cable is limited to 10 m. The motor cable’s screen must have a large-area connection with PE at both ends, and the motor connection terminals must also, therefore, meet EMC requirements.The motor is connected through a halogen-free 4 x 1.5 mm2 + 2 x (2 x 0.75 mm2), screened, DESINA-conformant motor supply cable with a length of 2 m, (SET-M4/2-HF) or 5 m, (SET-M4/5-HF).Alternatively you can assemble your own motor supply cable with plug SET-M4-A, with 4 x 1.5 mm2 + 4 x 0.75 mm2 contact.
400 V
M3 h
3 h 400 V PE50/60 Hz
M12 plug PIN Function
1 ASi+
2 –
3 ASi–
4 –
1 4 6
3 5 8
PE 7
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RA-SP2-...
Servo cable SET-M4/...
341-...
400 V AC
341(230)-...
230 V AC
1 1 U – – –
• – – – – –
3 3 W – – –
4 5 – – B1 (h) B1 (h)
5 7 – T1 – –
6 6 – – B2 (h) B2 (h)
7 2 V – – –
8 8 – T2 – –
PE PE PE – – –
M3h
i
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2
For controlling braking motors, their manufacturers provide braking rectifiers, which are fitted in the motor terminal strip.
Note: When using speed control unit RA-SP, do not connect the braking rectifier directly to the motor terminals (U/V/W)!
PES
5 8 1 7 3 PE
T1 T2
M 3 hi
U V W PE
e
PES
PES
5 8 1 7 3 PE
T1 T2
M 3 hi
U V W PE
e
PES F 1
0 m
/ 400 V230 3.2 / 1.9 A0.75S1 0.79ϕcoskW
rpm1430 50 Hz
U1 V1 W1
W2 U2 V2
/ 690 V400 1.9 / 1.1 A0.75S1 0.79ϕcoskW
rpm1430 50 Hz
U1 V1 W1
W2 U2 V2
PES
5 8 1 7 3 PE
T1 T2 U V W PE
e
PES
M 3 h
PES
5 8 1 7 3 PE
T1 T2
M 3 hi
U V W PE
e
PES
4 6
B1 B2
RA-SP2-341-...RA-SP2-341(230)-...
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NotesMoeller Wiring Manual 02/05
2
F
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